Harvester-thresher



March 1946- c. J. SCRANTON HARVESTER-THRESHER 2 Sheets-Sheet 2 Original Filed April 6, 1939 Patented Mar. 26, 1946 HARVESTER-THRESHER Charles J. Scranton, La Porte, Ind.,- 'assignor to- Allis-Chalmers Manufacturing Company, Mil- I Waukee, Wis., a corporation of Delaware Original application April c. 1939, serial No. 266,291. Divided and this application April 26, 1941, SerialNo. 390,447 3 V 5 Claims. (01. 56-21) This invention relates in generalto improvements concerned with or applicable to threshing machines, particularly such as are ofthe class known as harvester-threshers wherein the harvesting mechanism is combined in a single apparatus with the threshing and separating mechanisms.

The invention is more particularly concerned with improvements whichcontribute toward producing and rendering available to farmers working limited acreage, aharvester-thresher which may be of such relatively low weight, size and cost, and ready maneuverability about smaller sized farms, as to reasonably permit ownership and economic use of the machines on such farms,

The present application is a division of application S. N. 266,297, filed April 6, 1939, on which has been granted Patent No, 2,314,901, March 30, 1943.

Desirable results can well be attained in connection with the present invention through a design of apparatus wherein the harvesting and the threshing and separating'mechanisms are of light weight and compact design andpermit manufacture and assembly of these-parts, and their ready assembly thereafter, either in the factory or after shipment from the factory, on a separately assembled supporting frame, this latter featurereadily permitting transport, in 'a comparatively small space by train or truck,-of the harvesterthresher in knocked-down condition, a feature which greatly reduces the cost of such transportation. Other desirable results, particularl in the matter of facility of operationand handling by a single operator .are attained through suitable design and arrangement of driving mechanism for thevarious parts of the machine, readily permitting selective control, as from the position.

of the operator, to cause theoperation of all parts of the harvester-thresher and the discharge of clean grain to the grain bin, either with or without the simultaneous discharge of grain from the bin to a wagon or the like, or the discharge of grain from the bin to the wagonor the like while the remainder of the apparatus is inoperative.

It is a general object of this invention to provide an improved design and construction of harvester-thresher, which, enables the production of a machine that may be relatively light and inexpensive and capable of efficiently handling a wide variety of grain and seed crops with minimum power requirements.

It is a further object of this invention to provide an improved design and constructlon of harvester-thresher wherein the harvesting and the threshing and separating mechanisms are mounted on a supporting frame structure of improved design and permitting ready assembling of the complete machine and disassembling there'- of for facility in transportation and storage.

It is a further object of this invention to pro- ,vide an improved design and. construction of threshing machine, particularly such as isof the harvester-thresher type, including a receptacle for storing threshed grain or seed on'the vehicle, wherein improved facilities are provided for the selective driving of the parts of the apparatus, to readily permit control by the operator, at will, of the storing of threshed grain in the receptacle while the other mechanisms are in normal operation, or the discharge of grain from the storing receptacle while such other mechanisms are either operative or inoperati-ve.

These and other objects and advantages are attained by the present invention, various novel 7 features of which will be apparent from the accompanying description and drawings, disclosing an embodiment of features of the invention, and are more particularly defined in the appended claims.

In the accompanying drawings:

Fig, l is a view in elevation, with parts in Iongitudinal section, from the grainward side, of a harvester-thresher embodying features of the present invention;

Fig. 2 is a view in side elevation, from the stubbleward side, of the harvester-thresher of Fig. 1; Fig. 3 is a diagrammatic plan view, with parts omitted, of portions of the harvester-thresher;

Fig. 4 is a view, in rear elevation, of the supporting frame structure of Fig. 3;

Fig, 5 is a side elevation of details of the supporting arrangement; Fig. 6 is a sectional view inthe VI-VI of Fig. 5;

Fig. 7 is an enlarged sectional plan view, in the plane of line VII-VII of Fig. 2, showing details of the selective driving mechanism for parts of the apparatus; and

Fig. 8 is an enlarged plan view of details of the bin discharge conveyer mechanism in normal discharging condition.

In the embodiment of the invention disclosed in the drawings, a supporting frame 2 includes or is supported on an axle 3, the latter being of square tubular cross-section, supported on a pair of traction Wheels 4 journaled in bearings at the ends of the axle.

The separating mechanism, and the threshing mechanism, including a threshing cylinder 5, are.

plane of the line mounted within a housing 6, to the forward end 'of which a header platform 1 is pivoted for adiustment in a vertical plane to position the harinclined portions of the bars 2i at each sideof the bin and bolted, at their forward ends, to the vesting sickle 8, mounted at the forward end 'of 7 the header platform, in desired position of adjustment relative to the ground,

A grain bin 9 is mounted on the axle-supported frame at the stubbleward'side of the housing 6, the bin being preferably of such design and'so disposed relative to the axle 3 that the bin and its contents are always substantially balanced' fore and aft about the axle. Likewise, the remainder of the apparatus, including the supporting frame and the harvesting, threshing. and separa'ting mechanisms and the housing thereforare so designed and mounted that the weight of the entire apparatus is substantially balanced fore and aft about the axle, preferably with a very slight excess weight at the forward side of the axle to insure that thefront end of the frame will drop to and rest lightly on the ground when the harvester-thresher is detached from" the draft meansfor the machine, and may easily be lifted from the ground for attachment to the drawbar of a tractor. r V

The supporting frame 2 is made up of a draft portion or beam l2 including forwardly extending bars 12a, i212 in substantially the same plane, andconnected, preferably in a detachable manner, to the axle 3, at the s'tubblewardside of thehousing 6, the two bars being secured together at theirforward end portion 120, the rear portion of horizontal bar ll; of the frame.

The header platform 1 consists essentially of a bottom plate 21 supported on a suitable bracing frame, with side walls 28 and Hon the grainward and subbleward sides, respectively,projecting at right angles from and preferably integral with the 7 bottom plate, the header platform being adjustable up and down through the pivotal connection of the rear portion of the side walls 28, 29 with the forwardly projecting portion of the side walls of the housing 6. The forward edges of the side walls are provided with guards 3|, on the grain-c ward side, and 32, on the stubbleward side, taper ingfltoward their forward edges. The guard 3| may be provided with a forwardly projecting divider extension 34. The cutting sickle 8, mounted with its conventional guard at'the forward upwa'rdly turned edge of the bottom plate of the header platform, is actuated by a pitman suitably connected to the sickle, as through a bell cranklever suitablyxmounted on a bracket carried by the side wall 29.

the bar IZb-being inclined inwardly from the bar 12b. 1 Upright bars 15 are secured to and suitably braced on the bars, l2a, I2b,-and a transverse hori- 'zontal bar I6 is supported on and secured to the uprights l5 at the upper ends thereof and extends toward the grainward side of the machine; and

the lower ends of upright bars l5, and has an upwardly'inclined portion secured to and bracing the grainwardly extending portion of the bar [6.

Rearwardly extending bars I8 are mounted at their forward ends on the grainward extension of I the horizontal bar 16, these bars being preferably of right angle cross-section with their horizontal -flangesturr'1ed towardjeach other, and the rear portions of the bars 18 are inclined downwardly,

Vertical flange portions of supporting feet or 1 plates I9 are secured,'preferably by welding, to therear ends of the bars i 8, and the horizontal flanges of'these feet [9 arein a position to be 3, preferably by bolted connections which, while servin to securely mount the frame structure on I a brace bar ll is secured to the bars l2a, 12b, or to l A main;conveyingjdraper 36 is mounted on a lower orrgulde roller 31 rotatably mounted in the forward portion of the side walls of the header platform, and an. upper or driving roller 38 mounted on a shaft rotatable in bearings carried .by the forwardportion of the side walls of the housing 6 and having its axis coincident with the pivotal axis about which the header platform is adjusted toward and from the ground. A driving sheave 39 is mounted on the stubbleward end of the shaft carrying the driving roller 38.

.;'-A gathering reel Al is rotatably mounted in a bearin ,of suitably extended length carried by asupporting rod 42pivotally mounted on a bracket carried by the 'stubbleward side wall 29 of the header platform, a driving pulley 43 being mounted on the reel shaft. The supporting rod 42 is held in desired predetermined position with respect to a perpendicular to the surface of the ground by a bracing rod 45, preferably adjustably secured in position on the adjacent side wall of the header platform. The position in which the bearing for the reel shaft is secured on the rod .42 is preferably capable of adjustment up and down to vary the height of the reel above the cutting sickle carried at the forward edge of the header platform. r V

The conveying draper 3B is of substantially the sa-me width as the threshing cylinder 5, and the cutting'sickle may be of the same width as the draper' and the threshing cylinder; and with this swath of grain cut by the sickle falls, or is carried the axle, still permit ready assembling and disassembling, as for convenience in storing and ship ing. And with the frame structure disposed whollyforward-of the axle, a minimum length of the frame is attained.

The grain bin 9 includes a frame structure comprising'vertical supporting bars 2|, preferably in the'form of angle irons, at the corners of the bin,j the pair of bars at each side of the bin having their lower portions inclined toward each other and secured to a supporting foot 23 provided with a lower flange seating surface disposed to rest on the axle 3'to which it is secured, preferably in a detachable manner, as throughthe use of U-boltsl passing underneath the axle. The bin structure ,is' further supported and braced in a fore and aft .direction by horizontal bars 25 boltedto the lower,

by the reeljrearwar'dly onto the forward portion ofthe'maindraper 36, acrosssubstantially the full width thereof, and. the grain is carried upwardly by the draper, with the grain heads first,

toward the threshing cylinder, thecut grain being thus fed to .theicylinder across substantially the full width thereof,

The header platform is adjustable up and down about its pivotal support, thus varying the disstance of the cutting sickle above the ground, by means of an actuating lever 48 pivoted on the being connected, through a connecting rod 49, bell crank lever 50 and link 5|, to a bracket on the stubbleward side wall 29 of the header platform near the front end thereof. A biasing spring 52, attached to an extensionon the bell crank lever 59 and secured at its rear end to a portion of the swam frame 2, serves'to counterbalance the Weight of the header platform and hence facilitate adjustment thereof through the actuating lever 48. This actuating lever may be provided with a latch 'releasably cooperative with a slotted quadrant 53,

fixed to the draft frame I2, to provide for maintaining the actuatin lever and the header'platform in desired osition of adjustment.

The housing 6 forthe threshing andseparating mechanisms is assembled as a unitary housing from two spaced side wall plates 6a, 6b and a roof plate 60, the latter preferably being slightly rounded and provided with curved depending flanges, the side walls being secured to the roof plate to form the housing by connecting the depending flanges of the roof plate to the upper edges of the side plates, by riveting, welding or the like, as indicated at.56. The side walls may be of relatively thin plate material, and their relatively rigid supporting relation with respect to the roof and the internal elements of the threshing and separating mechanism, referred to hereinafter, may be augmented by means of suitable spacing and bracing plates or rods. The housing includes a hood 5! whose forward open edge fits over the rear edges of the, roof and side plates. when. in assembled relation, and whose upper and rear Sides are formed in substantial prolongation of the curved roof and side plates, this hood being open at its under side. This hood may be permanently secured to the roof andside plates; however, it is preferably detachably secured in position by bolts passing through the forward edge portions of the hood and the cooperative edge portions of the roof and side plates.

The lower portions of the side walls 6a,,tb are preferably bent inwardly, providing a space of reduced width betweenthe side walls, this space being occupied by a grain cleaningattachment including a device for supplying cleaning air to the grain cleaning device, as will be referred to hereinafter.

An upper conveying drape 58 is disposed within theforward portions of the side walls of the housing 6 and located above the rear end of the main draper 36. The upper or drivingroller 59 of the upper draper is mounted on a shaft journaled in bearings carried by the side walls to, 6b of: the housing, or an extension therefrom, and carries a driving sheave B on its stubbleward end; and the lower or guide roller 6| of this draper is mounted on a shaft journaled in the side walls 6a, 6b, this guide roller 6! being positioned to the rear of the upper roller 38 of the main draper. The arrangement of the draper 58 is such that the lower course of this draper moves rearwardly, in a downwardly inclined direction, and serves to press the material on the rear end of the main draper and to forcibly carry such material downwardly from the rear edge ofthe main draper and to the under side of the rotating threshing cylinder 5.

The threshing cylinder is in the form of an open drum comprising spaced circular plates 62 mounted on a shaft 63, these circular plates having peripheral flanges on which circumferentially spaced longitudinally extending beater or threshing bars 64 are mounted, these bars being preferably slightly inclined from a direction parallel to the axis of the cylinder shaft. The cylinder shaft 63 is rotatably supported in bearings securedin position in the opposed side walls of the housing 6, preferably by mountin the bearings in plates covering apertures in the sidewalls of sufficient size to permit insertion of the threshin cylinder into position through such, an aperture, The bearings are preferably adjustable in their supports, so as to permit adjustment of the axis of the threshing cylinder upwardly in adirection'slightly inclined from the vertical. The stubbleward side of the cylinder shaft is provided with a driving pulley 65 which serves to supply powerto the shaft.

A stationary threshing element orconcave is provided at'the lower side of the cylinder, this concave being preferably in the form of an imperforate plate 61 slightly spaced from and following the general curvature of the lower portion of the'path of the cylinder threshing-1 bars, this concave plate being attached, preferably by flanges integralwith'the plate, to the side walls of the housing 6. The upper face of the concave plate; 61 is provided with one ormore iongitudinally extending stationary threshingbars of heretofore known conventional form and disposition. The forward edge of the concave plate and the rear edgeof the bottom plate 21 of the header platform are in overlapping relation at a point adjacent the upper roller 38 of the main feed draper 36, preferably with a suitable form of choke or ledger plate overlapping the forward edge of the ;conca,ve plate and adjustabletoward and. from the path of the cylinder, as indicated at 69.

The rear part of the substantially circular body portion. of the concave extends upwardly, preferably following a tangent, to a point slightly above the cylinder shaft; and thisv rear portion of the concave has an upwardly rising extension 10 therefrom, the lower portion of, such extension substantially following the'tangent, and the upper portion thereof curving rearwardly to a slight extent to a point above and preferably just beyond the forward edge of an oscillating shaking rack H, with the extreme upper end of thee tension preferably turned slightly downward. Upwardly extendin spaced rake-like spring fingers 1 of the hereinabove described general shape of the upper rear'portion of the extension of the concave, may be substituted for such concave plate extension.

The upper side of the threshing cylinder is enclosed by a housing plate 12 extending between the side walls of the housing 6 and preferably secured thereto by integral'flange's at the side edges of such plate. a This platen follows the curvature of, and is slightly spaced from, the path of the rotatingcylinder bars. The forward edge of the plate .12 terminates in the rear of and adjacent the rear end of the upper feeding draper 58; and this housing plate 12 extends. rearwardly to a point substantially beyond the axi of the cylinder. This housing plate 12 has a rearward exten sion 13, the forward portion of this extension rising upwardly and rearwardly at an angle of approximately forty-five to sixty degrees'to the horizontal, and extending substantially parallel to, the rear tangent portion, 10 of the concave plate 61; and the rear portion of this extension 13 curves upwardly and easily toward the roof of the housing, with the rear edge portion of the extension preferably inclined slightly downward 54 walls 811,672 of the'housing. The rack 1| ex- -tends forwardly to a point beneath the rear end of the concave extension, thus insuring that all through the rake and material passing over the .rear' edge of the lower screens of the cleaning of the straw'and grain from thecthreshing mechvanism will drop onto the rack and be'subjected ward end of the rack being mounted on a transverse shaft 16 and rocker arms or links 18 near :the rear end of the rack being secured on a transverse shaft 19. The rocker arms or links are preferably mounted on the outer sides of the ghousing side walls and have extensions at their upper'ends projecting through elongated slots in the side walls, the rack-being suspended on such extensions. Y

Grain. dropping through the rack ll falls through a conventional form of travelinggrain drag 80,'driven by sprockets on the rear or driving 1 shaft 80a of the drag. The upper course of the grain drag moves forwardly and the lower course rearwardly, a plate 8| being disposed beneath the rear portion of the upper course of the grain drag, so

that grain dropping through this portion of the drag is carried to the forward edgeof the plate 8|, whence it drops through the lower course'of the drag, to the forward portion of the sieve'of a cleaning shoe 82, which usually comprises a plurality of superposed screens r sieves. Grain 1 falling through the forward portion of the rack falls through both courses of the drag 80, a part falling on a transverse partitionwall 83 from i which it is drawn rearwardly by the drag to a point where it drops on the forward end of the upper screen of the cleaning shoe; and another portion of the grain drops through both courses of the drag directly onto the upper sieve.

The desired vibratory motion is imparted to the cleaning shoe by suspending the forward portion of the same'on a transverse shaft 84 carried by the lower extensions of the rocker arms 15, the upper portions of which suspend the forward portion of the rack H, andsuspending the rear portion of the cleaning shoe on a pair of links 84a pivoted to the side walls of the housing.

The upper sieve of the cleaning shoe is provided with a tailings rake 85 or aperturedplate to permit unthreshed heads to fall therethrough,

which have passed onto thesieve, from the rear end of the rake, this straw dropping or being blown to the ground by the cleaning air. 7

The side walls 6a, 6b are closed. beneath the cleaning screen, and likewise braced at this point, by adjoining trough-shaped plates 86, '81 each i preferably having flanges at its side edges through which these plates aresecured to the side walls. The trough plate '88 lies beneath the body porconveyer 89 which conveys the grain, along the while at the sametime carrying pieces of straw,

trough and through a tubular extension'attached to the stubbleward side of the trough, to an elevating conveyer 99, this elevator-being'attached to'or braced. on the adjacent housing wall 6b and discharging the grain to'the bin 9, or as may be desired, to discharge chutes positioned, over a bagging platform'which maybe substituted for thegrainbin; a f c .tThe trQ gh plate 8'! lies beneath the tailings rake 85 in position to receive material passing shoe. The rear side of the trough 81 is'preferi ably providedwith a detachable extension wall 91 extending upwardly and rearwardly toward the discharge end of the tailings rake and in .position to insure that the trough 81 receives all vating conveyer 93, this elevator being attached to or braced on the stubbleward side wall 672 of the housing and having a discharge communicating with a chute or conveyer 94 which conveys the tailings to a suitably positioned discharge device .95 extending between the side walls 6a,.6b,

for feeding the tailings to the "threshing cylinder through the upper forward portion of the upper enclosing wall 12 of the. cylinder chamber, for a second threshing operation on such tailings. A forward extension from the upper plate 12 opposite the tailingsdischarge 95, prevents the tailings from being thrown forward over the upper side of the auxiliary draper 58. v 7

Each of the side walls 6a, 6b of the body, where the latter encloses the separating mechanism, is depressed at its lower portion at a point below the plate 83 to provide a space of reduced width between these -walls wherein the cleaning shoe and a portion of the housing 96 of a fan 91, for supplying cleaning air to the cleaning shoe, are located. The housing 98 of the fan, in COIljllIlC". tion withthe concave plate Bl'constitutes a substantial closure for the forward end of this space. The upper. edge of this inwardly depressed portion of the side walls, from a point adjacent the forward edge of the plate 83, extends forwardly Wholly through attachment to the side walls 6a,

6b of the main housin or to transverse plates or braces attached thereto; or, preferably, the fan housing may be readily attached in and detached from position with respect to the main housing, after the latter is mounted in position on the frame, a bracket 99 attached to the fan housing being used to detachably mount the fan jhousing on the rearwardly extending bars 18.

The shaft of the fan 9! may be mounted, while the latter is in place within'its housing, in'bear--v ings I08 suspended by U-bolts from hangers llllla detachably mounted on the rearwardly extending bars l8.

' The lower edge of the part of the side walls Ba, 61), overlying the inclined portion of the rearwardly extending bars I8 of the supporting frame are provided with inwardly bent stiffening flanges adapted to rest on the inwardly turned flanges of the supporting bars l8, as indicated in Figs. 5 and 6. Bolts or screws passing through the adjacent upright flanges of the bars l8 and the walls 6a, 6b serve to attach this portion of the housing to the supporting frame structure;

and where the bars I 8 are secured to the supporting feet IS, the housing attaching bolts also pass through the upright flanges of these supportin feet. The forward end of the housing 6 is further supported and braced on the horizontal bar I6 of the frame, as more particularly shown in Fig. 5, through U-bolts passing around the underneath side ofthe bar I6, the legs of the U- bolts being detachably secured directly to inwardly flanged portions of the side walls of the housing, or. to inwardly flanged portions of reinforcing plates or hangers I001) mounted on the side walls, preferably with a suitable form of saddle block interposed between the upper side of the bar IS and the flanges to which such U-bolts are attached.

The center of ravity of the body comprising the housing 6 and parts carried thereby is in the rear of the axle 3, but the support and attachment of the housing to the frame structure, particularly through the horizontal bar I6 of the frame structure, causes a definite portion of the weight of the housing to be transmitted through the frame forwardly ofthe axle, and the result is that the housing and frame, when thus assembled, have their combined weight substantially balanced about the axle, preferably with a slight excess of weight at the forward side of the axle to insure that the forward end of the draft beam I2 may rest lightly on the ground and may be easily lifted from the ground for attachment to' the drawbar of a tractor.

In the operation of the machine, the grain severed by the harvesting sickle is carried rearwardly by the reel onto or toward the main feed draper 36, the latter being of a width to receive the full width of the swath severed by the cutting sickle. And the draper conveys a steady thin stream of cut grain, with the grain heads foremost, to and across the full width of the threshing cylinder, and the threshed grain and stalks are threshed and discharged from. the threshing cylinder in a thin and substantially even stream toward the separating mechanism for action by the latter.

A rotary beater IOI, capable of exerting a fan action, may be provided in the separator housing over the forward portion of the separating rack and in a position substantially to the rear and above the threshing cylinder. The rotary beater IOI, having a plurality of substantially imperforate vanes, is mounted on a transverse shaft I02 in the upper part of the separating chamber near the forward end thereof, the beater shaft being mounted in bearings on the side walls 6a, 6b, or preferably, the bearings at one or both sides, instead of being mounted in the side wall itself, are mounted in a plate removably attached to the side wall of the housing about an opening of sufficient size to permit bodily removal and insertion of the beater into operative position. As indicated, the beater vanes are set at right angles to one another and held between annular side plates I 03- and attached to hub structures mounted on the beater shaft adjacent the inner surface of the side walls of the housing; and the beater shaft I02 is provided with a driving pulley I04 outside of the stubbleward side of the housing 6. The vanes preferably have their radially outer ends inclined rearwardly, as indicated at I05, and these outer ends are preferably formed as teeth, capable of exerting a combing action on the straw which loosens grain particles therefrom and likewise separates matted portions of thestraw.

' close proximity to the path of the vanes of the beater, thus preventing the passage of straw to the upper side of the beater.

The tangential rear portion of the concave wall guides the material discharged from the threshing cylinder, in a thin stream of a width substantially equal to that of the cylinder, in a path'which causes the material to be projected toward the curved upper portion of the wall 13, and the material is deflected therefrom downwardly toward the path of the beater IN and the rack II. The operating effect of the beater fan in assisting the recovery of grain from the straw and in moving the latter rearwardly along the rack will be apparent from the more detailed description thereof in applicant's Patent "No. 2,314,901, March 30, 1943.

A swinging baffle I06 is pivoted at its upper end on projections from the side walls or the roof of the housing 6, in the rear of the beater IOI, and receives the impact of any straw thrown forcibly by the beater toward the rear of the rack, and insures that the straw passes steadily along the rack and is subjected to the vibratory action thereof throughout the remainder of its length.

An inclined pan or baflleIDl is attached to the rack beneath its rear edge, the lower edge of this pan projecting forwardly to a point above the upper course of grain drag and over the rear'edge of the plate 8 I, to insure that all of the threshed grain or seed passing through the rack is recovered.

The bottom of the grain bin 9 is tapered from the grainward and stubbleward sides toward the center to provide a Well portion I08 extending longitudinally of the direction of travel of the machine; and a screw conveyer I09 on a shaft H0 is disposed in this well, and projects through an opening in the front wall of the grain bin into a hollow cap II2 which closes the opening in the wall of the grain bin. The shaft of the conveyer I09 projects through a bearing arranged axially at the front end of the cap H2; and the rear end of this conveyer shaft passes through abearing in the rear Wall of the grain bin, and it is provided with an externally located driving sprocket II3. This hollow cap H2 is provided at its rear edge with an annular flange which fits closely within an offset annular flange at the inner periphery of an annular clamping plate H4 removably secured to the front wall of the bin about the opening therein. The fit of the flange on the cap II2 beneath the flange on the clamping plate H4 is such as to provide a close fit while at the same time permitting rotation of the cap about the conveyer shaft IIO as an axis, upon the application of force to the cap.

On the under side of the enclosing cap I I2 and communicating through the wall of the cap with the interior thereof, is a tubular housing II5 extending at an. angle to the vertical when in operative discharging position, the cap'and discharge element being formed or assembled as a unitary device. A screw conveyer H6 is provided within the tubular housing I I5, and its centrally located shaft I I! has bearings in the opposite ends of the housing. The lower end of the bin discharge housing I I5 is preferably closed by an element I I8 having a central aperture through which the end 1 of the conveyer shaft'II1 projects and in which it has a bearing, the'projecting end of this shaft 1 being provided with a bevel driving gear II9.

The element II8 may have extensions providing spaced bearings for a shaft I20 on which is mounted a bevel gear I2 I, meshing with the bevel gear H9. The shaft I20 is driven by a sprocket I23 and a driving chain connection from a sprocket I24 onthe conveyor shaft, IIO. When it is desired to discharge grain to a. wagon alongthe annular on which it is mounted.

The .stubbleward side of the housing I31 is closed by a removable hollowclosure element I48 having a rearwardly projecting tubular extension I49 which provides spaced bearings for a'shaft I50 therein. On the inner end of the shaft I50 is mounted a spur gear I5I suitably held in definite position wherein the spur gear I4I may be brought into mesh with the teeth of the spur gear I5I, when the element I40 is adjusted to certain- Power is supplied to the various operating I mechanisms of the apparatus through a drive; sh'aft I 'whose forward end is mounted in a bearing I26 supported on the forward end of the draft frame I2, the forward end of the drive shaft having a suitable flexible power connection for attachment to a power takeoff shaft on a tractor.

- whose drawbar is flexibly coupled to the front end of the draft frame I2.

The rear end .of the drive shaft I25 is connected, through a longitudinally extensible joint and a power limiting device I21, to a shaft coupling I28. As indicated, the shaft coupling I28 is provided with a flange I29 at its forward end towhich is attached a, flanged coupling sleeve I 30 surrounding and having a guiding lit at its for- Ward end with the drive shaft I25. The front face of the flange I29 within the sleeve I30 is provided with clutch projections meshing under ordinary driving conditions, with corresponding projections on an overload release clutch member I3I surrounding and splined, in freely reciprocating relation, to the rear end portion of the drive shaft. The clutch members are normally held in clutching arrangementbya compression spring I32 surrounding the drive'shaft and exertin pressure, through suitable abutment collars, against the slidable clutch member I3I and an internally formed shoulder at the front end of the sleeve I 30. r

The shaft coupling section I28 is connected through a universal joint I35 to a shaft I36 mounted in bearings at the front and rear sides of a housing I31, supported on a base or pedestal I38 carried bythe supporting frame structure, or preferablyfixed on the axle 3, beneath the grain positions. The rear end of the shaft I isprovided with a driving sprocket I52 for connection, through a driving chain, to the driving sprocket I I3 on the shaft IIO of the bin conveyer.

An operating spindle I54passes through the closure element I49. 7 The inner end of this spindle, lying within the housing I31, is of crank formation, as indicated at I55,,with the terminal portion thereof disposed in an annular recess I56 at the front end of the annular element I 40. The outer end of. the spindle is providedwith an operating arm I51, and an operating rod I50 attached thereto passes forwardly over the draft frame and is supported near its forward end on a fixed arm I59 carried by the draft frame. An.

' operating handle on the forward end of this rod on the cylinder shaft, the latter is'driven. The

bin 9. Slidably splined on theshaft I36, in driving relation therewith, within'the housing, is an annular element I40 formed at its rear end with a spur gear I4I. A gear I42 is freely rotatable on the-rear portion of the shaft I36, this gear being restrained .against moving forwardly. on the shaft through abutment against a shoulder on the shaft. The gear I42 is formed with internal spur gear teeth adapted to'mesh with the teeth of spur gear I4I, and it is formed at its forward side with external bevel gear teeth meshing with the teeth of a bevel gear I43 mounted on the inner end of a transverseshaft I45 suitably mounted in bearings in a grainwardly extending tubular projection I46 of the housing. The bearing for the shaft I36 in the forward side of the housing is mounted in an opening in the housing, provided with a detachable closure plate I41, and

perferably of sufficient size to permit removal of I58 is located at a point Where it is readily accessible to the operator of the tractor, so as to be operated by push or pull, to adjust the annular element I 40 to any'desired one of its three operative positions.

With the annular element I49 adjusted, through the operating spindle I54, arm I51 and rod I56; to its rear position, indicated in Fig. 10, wherein the spur gear MI meshes only with the internal teeth on the gear I42, the main drive shaft operates the countershaft, I45, through the gears I42 and I43, and through a sheave I6I and a V-belt connection therefrom to the sheave 65 shaft I45 also drives the beater IOI, through 'a sheave I62 on shaft I45 and a V-belt driving connection therefrom to the sheave I64 on the. beater shaft; and through this same belt connection and a sheave I63 on the driving shaft 89a of the grain drag 80, the latter is driven. Z

The shaft of the beater, through a sheave I64 thereon and a V-belt connection therefrom to a sheave I65 on the grainward side of the upper shaft of the tailings elevator 93, drives the latter; and the elevator chain of the latter serves to drive the shaftat the lower end of the tailings elevator, this latter shaft carrying the tailings conveyer 92. And the shaft of the beater, through a sprocket I61 thereon and a driving chain connection therefrom to a sprocket I68 on the grainward side of. the upper shaft of the] clean grain elevator 90, serves to drive the later; and the elevator chain of the latter drives the shaft of the clean grain conveyer 92, associated with the lower end of such elevator.

'The shaft I45, through a third sheave I69" thereon and a crossed V-belt connection therefromto a sheave 39 on the, shaft of the upper, roller 33 of the main feed draper 36, drivesthe latter. And-this same driving belt also cooperates with a sheave I10 on the shaft of the fan 91 to drive the latter. A crank connection on the shaft of the upper roller 38 of the main feed draper 36 actuates the pitman connection 35 for A pitman connection I1 at the grainward side wall 6a of the housing 6 may serve, through a, suitable eccentric conne'c element, a ong with the shaft Iss1 tion of the pitman to the shaft I02 of the rotary beater, to impart the desired oscillatory movement to the shaking rack TI and the cleaning shoe 82.

A crossed V-belt connection from the sheave I72 on the grainward side of the shaft of the driving roller 38 f the main feed draper 36 to the sheave 60 on the adjacent end of the shaft of the driving roller 59 of the auxiliary feed draper ,58, serves to drive the latter.

As referred to hereinabove, the bin conveyer I09 is driven through a driving chain associated with th'sprocket I I 3 on the shaft I I0 and the sprocket I52 on the drive shaft I50, when the spur gear MI is suitably meshed with the spur gear I5I on shaft I50. And, through the drive chain connection between the sprocket I24 on the forward end of the shaft H0 and the sprocket I23 on the shaft I20, the latter is actuated, to thereby drive, through bevel gears I I9, [21, the bin discharge elevating conveyer II 6.

The gathering reel 4| is driven from the stubbleward traction Wheel through a sprocket associated with such wheel and a driving chain connection therefrom to a sprocket I79 on a shaft I80 mounted in bearings carried by the frame, preferably the horizontal rod I6 thereof, and a sheave IBI on such shaft and a V-belt connection therefrom to the driving sheave 43 on the reel shaft. The extended length and flexibility of this V-belt connection insures satisfactory driving of the reel in its various positions of adjustment.

It will be apparent that, when the sliding element I40 is in its rear position of adjustment, indicated in Fig. 10, wherein the spur gear I4I meshes only with the internal teeth of the gear element I42, the main drive shaft is effective, through this gear connection and the shaft I45, to drive the active parts of the grain harvesting, threshing and separating mechanisms, including the rotary beater IM and the discharge of grain to the grain bin. And in this position of adjustment, the spur gear I41 is ineifective to drive the countershaft I50 associated in driving relation to the bin discharge conveyer I09 and the discharging elevator IIB.

When the sliding element I40 is adjusted for- Wardly to an intermediate position, the gear I4I remains in driving relation with the internal teeth of the gear I42, and it also comes into driving relation with the spur gear I5I on countershaft I50, thus also placing the bin discharge conveyer I09 and the elevating discharge conveyer I IS in operation.

When the sliding element I40 is adjusted to its full forward position, the driving relation between the gear MI and thegear I42 is broken, while the driving connection between the gear MI and the gear I5I on the countershaft I50 remains, and hence the bin discharge mechanism is operative, thus permitting removal of the contents of the grain bin while the threshing and separating mechanisms are inoperative.

It will be apparent that this selective driving mechanism permits, at will, the normal harvesting, threshing and separating operations with the discharge of clean grain to the grain bin, either with or without simultaneous discharge of grain from the bin, or the discharge of grain from the bin while the harvesting, threshing and separating mechanisms are inoperative.

The roof plate 60 of the housing 6, instead of extending as a single piece to its forward edge, preferably terminates at a point above the forextension I83 is hinged to. the forward edge. of the body portion of the roof and extends forwardly to a point just in the rear of the auxiliary feed draper 58, so that, on lifting the hinged cover plate I83, access may be had to the space underneath.

While the discharge of clean grain from the machine, through the elevator 90, is described as being into a grain bin, it will be apparent that as to certain features of the invention, a bagging arrangement may be substituted for the grain bin and its appurtenant parts.

With the grain bin and the forwardly extending supporting frame detachably mounted on the axle and the body or housing for the harvesting and separating'elements detachably mounted on its support, but still providing a rigidly united assembly, and the header platform detachable from the body or housing, as it is preferably arranged, the design of the harvester-thresher, through this detachability of sections, is such as to permit a relatively large number of machines to be shipped, in knocked-down form, on a single car, thus reducing costs of transportation,

It should be understood that my invention disclosed herein is not limited to the exact details of design and construction described and shown herein, and that it embraces various embodiments of the invention within the scope of the annexed claims.

It is claimed and desired to secure Patent:

1. In a harvester-thresher of the type adapted to be drawn and operated bya tractor and comprising a wheeled supporting structure, harvesting, threshing and separating mechanism mounted thereon, a shaft for driving a portion of said mechanism, a bin for receiving-and storing threshed grain, a discharge conveyer for said grain bin, a shaft for driving said discharge con veyer, and a main power shaft rotatably mounted on said supporting structure and adapted to be driven from said tractor, in combination, a unitary selective power transmission device carried by said supporting structure and comprising a housing, a shaft section connected to said power shaft and having a portion thereof within said housing and rotatably mounted in bearings in fore and aft portions of said housing, an end by Letters portion of said mechanism driving shaft and said conveyer driving shaft extending into said housing and rotatably mounted in bearings therein, means within said housing and driven by said shaft section connected to said power shaft and selectively adjustable for connecting said shaft section in driving relation to said mechanism driving shaft either in conjunction with or independently of said conveyer driving shaft or to a said conveyer driving shaft independently of said mechanism driving shaft, and means operable from a point external of said housing for actuating said selectively adjustable means to effect desired driving relations, said operating means including an operating connection extending to a point within easy reach of the tractor operator.

2. In a harvester-thresher of the type adapted to be drawn by a tractor, and comprising a supporting structure including a supporting frame having a draft element for connection to the drawbar of a tractor, harvesting, threshing and separating mechanisms mounted on said supporting structure, a grain receiving bin mounted on said supporting structure, power operated means for discharging grain from said bin to a ward edge of the threshing cylinder, and a roof I 7 ing point external thereof, a drive shaft carried by selective transmission comprising a shaft section connected to said drive shaft and rotatably mounted in said housing, a sliding gear element on said latter shaft section and interchangeably connectable with either or both of two gears each associated with one of said two driving mechanisms, and means for actuating said sliding gear element ,to cause .said drive shaft to selectively drive the driving mechanism for said harvesting, threshing and separating devices either in conjunctionv with, or independently of the driving mechanism for said bin discharge means or to drive the driving mechanism for said bin discharge means independently of the driving mechanism for said harvesting, threshing and separating devices. I

3. In a tractor-drawn, power-operated ha'rvester-thresher comprising harvesting, threshand separating mechanism and a grain bin to receive threshed grain therefrom, mechanism for discharging grain from said bin to a point external thereof, and a power shaft for supplying power to said mechanisms, in combination, a unitary selective power transmission device comprising an adjustable driving element connected indriven relation to said power shaft and connectible in driving relation to said harvesting,

threshing and separating mechanism and to said bin discharge mechanism, and means for selectively adjusting said driving element to cause the latter to drive said harvesting, threshing, separating mechanism and said bin discharge mechanism simultaneously or to drive either of said mechanisms alone.

4. In a tractor-drawn, power-operated harvester-thresher comprising harvesting, threshing and separating mechanism and a grain bin to receive threshed grain therefrom, mechanism for discharging grain from said bin to a point external thereof, and a power shaft connectible to a threshing;-

power source on a tractor to which saidharvester-thresher is connected in draft relation for supplying power to said mechanisms, in combination, a unitary selective power transmission device comprising an adjustable driving element connected in driven relation to said power shaft and connectible in driving relation to said harvesting, threshing and separating. mechanism and to said bin discharge mechanism, and means for selectively adjusting said driving element to cause the latter to drive said harvesting, threshing and separating mechanism and said bin dis-- charge mechanism simultaneously or to drive either of said mechanisms alone, said adjusting means comprising an operating connection extending forwardly to a point where it is manipulable by the tractor operator while in his normal position on the tractor.

5. In a tractor-drawn, power-operated har vester-thresher comprising a supporting frame carrying harvesting, threshing, separating mechanism and a grain bin to receive threshed grain therefrom and having a draft portion connectible to the tractor, mechanism for discharging grainv from the bin to a point external thereof, anda power shaft carried by said draft portion and connectible to a power source supplying power to said mechanism, in combination, a unitary enclosed selective power transmission device mounted on said frame and com:

prising an enclosing housing within which said power shaft extends, an adjustable driving element within said housing and in driven relation to said power shaft, gear driving elements within said housing and connected to said harvesting,'

threshing, separating mechanism and said bin discharge mechanism, respectively, means for selectively adjusting said adjustable driving element associated with power shaft to establish driving relation therethrough from said power shaft to said gear driving elements associated with both said harvesting, threshing, separating mechanism and said bin discharge mechanism simultaneously or to either of said latter driving elements alone, and an operating connection extending forwardlyffrom said adjusting means to a point within ready reach of the tractor operator for actuation thereby.

CHARLES J. SCRANTON.

on the tractor for 

